Electro-acoustic transducer for open audio device

What is claimed is: 1. An electro-acoustic transducer, comprising: a diaphragm with a front side and a rear side, the diaphragm configured to be driven to radiate front side acoustic radiation from its front side and rear side acoustic radiation from its rear side; a magnet; a magnetic circuit that defines a path for magnetic flux of the magnet and comprises a gap, wherein the magnetic circuit comprises a cup-shaped pole piece that comprises an upstanding annular wall that surrounds the magnet; a voice coil located in the magnetic circuit gap and configured to move the diaphragm; a basket coupled to and supported by the upstanding annular wall of the pole piece, wherein the basket directly or indirectly supports the diaphragm, wherein the basket defines at least part of a front acoustic volume that is configured to receive the front side acoustic radiation, and wherein the basket defines at least part of a rear acoustic volume that is configured to receive the rear side acoustic radiation; a bobbin that is coupled to the diaphragm and that carries the voice coil, wherein the bobbin comprises a plurality of openings that are adapted to transmit rear side acoustic radiation through the bobbin and into the rear acoustic volume; a first opening in the basket that is fluidly coupled to the front acoustic volume and is configured to emit front side acoustic radiation into the environment; and a second opening in the basket that is fluidly coupled to the rear acoustic volume and is configured to emit rear side acoustic radiation into the environment. 2. The electro-acoustic transducer of claim 1 , further comprising a third opening in the basket and that is fluidly coupled to the rear acoustic volume and is configured to emit rear side acoustic radiation into the environment. 3. The electro-acoustic transducer of claim 2 , wherein the third opening is covered by a resistive screen. 4. The electro-acoustic transducer of claim 2 , wherein the third opening is proximate the first opening. 5. The electro-acoustic transducer of claim 1 , further comprising a port with a port opening, wherein the second opening leads to the port. 6. The electro-acoustic transducer of claim 5 , further comprising a structure in the port that reduces port standing wave resonances. 7. The electro-acoustic transducer of claim 6 , wherein the port is defined by port walls, and wherein the structure in the port that reduces port standing wave resonances comprises an opening in a port wall that is covered by a resistive screen. 8. The electro-acoustic transducer of claim 1 , wherein the diaphragm has an apex and a periphery, and wherein the apex is closer to the voice coil than is the periphery. 9. The electro-acoustic transducer of claim 8 , further comprising a roll coupled to the periphery of the diaphragm, wherein the roll is directly supported by the basket, and wherein the roll has an apex and a periphery, and wherein the apex is closer to the voice coil than is the periphery. 10. The electro-acoustic transducer of claim 8 , wherein the magnetic circuit further comprises a front plate with a concave top surface. 11. The electro-acoustic transducer of claim 1 , wherein the diaphragm has a diameter, and the cup-shaped pole piece has a diameter that is at least as large as the diameter of the diaphragm. 12. The electro-acoustic transducer of claim 1 , wherein the first and second openings in the basket are on opposed sides of the transducer. 13. An electro-acoustic transducer, comprising: a diaphragm with a front side and a rear side, the diaphragm configured to be driven to radiate front side acoustic radiation from its front side and rear side acoustic radiation from its rear side; a magnet; a magnetic circuit that defines a path for magnetic flux of the magnet and comprises a gap, wherein the magnetic circuit comprises a cup-shaped pole piece that comprises an upstanding annular wall that surrounds the magnet; a voice coil located in the magnetic circuit gap and configured to move the diaphragm; wherein the diaphragm has an apex and a periphery, and wherein the apex is closer to the voice coil than is the periphery; a basket coupled to an supported by the upstanding annular wall of the pole piece, wherein the basket directly or indirectly supports the diaphragm, wherein the basket defines at least part of a front acoustic volume that is configured to receive the front side acoustic radiation, and wherein the basket defines at least part of a rear acoustic volume that is configured to receive the rear side acoustic radiation; a bobbin that is coupled to the diaphragm and that carries the voice coil, wherein the bobbin comprises a plurality of openings that are adapted to transmit rear side acoustic radiation through the bobbin and into the rear acoustic volume; a first opening in the basket that is fluidly coupled to the front acoustic volume and is configured to emit front side acoustic radiation into the environment; and a second opening in the basket that is fluidly coupled to the rear acoustic volume and is configured to emit rear side acoustic radiation into the environment. 14. The electro-acoustic transducer of claim 13 , further comprising a roll coupled to the periphery of the diaphragm, wherein the roll is directly supported by the basket, and wherein the roll has an apex and a periphery, and wherein the apex is closer to the voice coil than is the periphery. 15. The electro-acoustic transducer of claim 13 , wherein the first and second openings in the basket are on opposed sides of the transducer. 16. The electro-acoustic transducer of claim 13 , wherein the magnetic circuit further comprises a front plate with a concave top surface.